SVC: Change return type of handlers to ResultCode
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d52d859936
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@ -33,114 +33,109 @@ static inline void FuncReturn64(u64 res) {
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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// Function wrappers that return type s32
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// Function wrappers that return type ResultCode
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template<s32 func(u32, u32, u32, u32)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3)));
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template<ResultCode func(u32, u32, u32, u32)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3)).raw);
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}
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template<s32 func(u32, u32, u32, u32, u32)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3), PARAM(4)));
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template<ResultCode func(u32, u32, u32, u32, u32)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3), PARAM(4)).raw);
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}
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template<s32 func(u32*, u32, u32, u32, u32, u32)> void Wrap(){
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template<ResultCode func(u32*, u32, u32, u32, u32, u32)> void Wrap(){
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u32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(0), PARAM(1), PARAM(2), PARAM(3), PARAM(4));
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u32 retval = func(¶m_1, PARAM(0), PARAM(1), PARAM(2), PARAM(3), PARAM(4)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(s32*, u32*, s32, bool, s64)> void Wrap() {
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template<ResultCode func(s32*, u32*, s32, bool, s64)> void Wrap() {
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s32 param_1 = 0;
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s32 retval = func(¶m_1, (Handle*)Memory::GetPointer(PARAM(1)), (s32)PARAM(2),
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(PARAM(3) != 0), (((s64)PARAM(4) << 32) | PARAM(0)));
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(PARAM(3) != 0), (((s64)PARAM(4) << 32) | PARAM(0))).raw;
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Core::g_app_core->SetReg(1, (u32)param_1);
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FuncReturn(retval);
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}
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// TODO(bunnei): Is this correct? Probably not - Last parameter looks wrong for ArbitrateAddress
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template<s32 func(u32, u32, u32, u32, s64)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3), (((s64)PARAM(5) << 32) | PARAM(4))));
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template<ResultCode func(u32, u32, u32, u32, s64)> void Wrap() {
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FuncReturn(func(PARAM(0), PARAM(1), PARAM(2), PARAM(3), (((s64)PARAM(5) << 32) | PARAM(4))).raw);
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}
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template<s32 func(u32*)> void Wrap(){
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template<ResultCode func(u32*)> void Wrap(){
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u32 param_1 = 0;
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u32 retval = func(¶m_1);
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u32 retval = func(¶m_1).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32, s64)> void Wrap() {
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FuncReturn(func(PARAM(0), (((s64)PARAM(3) << 32) | PARAM(2))));
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template<ResultCode func(u32, s64)> void Wrap() {
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FuncReturn(func(PARAM(0), (((s64)PARAM(3) << 32) | PARAM(2))).raw);
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}
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template<s32 func(void*, void*, u32)> void Wrap(){
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FuncReturn(func(Memory::GetPointer(PARAM(0)), Memory::GetPointer(PARAM(1)), PARAM(2)));
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template<ResultCode func(void*, void*, u32)> void Wrap(){
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FuncReturn(func(Memory::GetPointer(PARAM(0)), Memory::GetPointer(PARAM(1)), PARAM(2)).raw);
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}
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template<s32 func(s32*, u32)> void Wrap(){
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template<ResultCode func(s32*, u32)> void Wrap(){
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s32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(1));
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u32 retval = func(¶m_1, PARAM(1)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32, s32)> void Wrap() {
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FuncReturn(func(PARAM(0), (s32)PARAM(1)));
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template<ResultCode func(u32, s32)> void Wrap() {
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FuncReturn(func(PARAM(0), (s32)PARAM(1)).raw);
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}
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template<s32 func(u32*, u32)> void Wrap(){
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template<ResultCode func(u32*, u32)> void Wrap(){
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u32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(1));
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u32 retval = func(¶m_1, PARAM(1)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32)> void Wrap() {
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FuncReturn(func(PARAM(0)));
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template<ResultCode func(u32)> void Wrap() {
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FuncReturn(func(PARAM(0)).raw);
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}
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template<s32 func(void*)> void Wrap() {
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FuncReturn(func(Memory::GetPointer(PARAM(0))));
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}
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template<s32 func(s64*, u32, void*, s32)> void Wrap(){
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template<ResultCode func(s64*, u32, void*, s32)> void Wrap(){
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FuncReturn(func((s64*)Memory::GetPointer(PARAM(0)), PARAM(1), Memory::GetPointer(PARAM(2)),
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(s32)PARAM(3)));
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(s32)PARAM(3)).raw);
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}
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template<s32 func(u32*, const char*)> void Wrap() {
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template<ResultCode func(u32*, const char*)> void Wrap() {
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u32 param_1 = 0;
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u32 retval = func(¶m_1, Memory::GetCharPointer(PARAM(1)));
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u32 retval = func(¶m_1, Memory::GetCharPointer(PARAM(1))).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32*, s32, s32)> void Wrap() {
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template<ResultCode func(u32*, s32, s32)> void Wrap() {
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u32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(1), PARAM(2));
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u32 retval = func(¶m_1, PARAM(1), PARAM(2)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(s32*, u32, s32)> void Wrap() {
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template<ResultCode func(s32*, u32, s32)> void Wrap() {
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s32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(1), PARAM(2));
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u32 retval = func(¶m_1, PARAM(1), PARAM(2)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32*, u32, u32, u32, u32)> void Wrap() {
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template<ResultCode func(u32*, u32, u32, u32, u32)> void Wrap() {
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u32 param_1 = 0;
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u32 retval = func(¶m_1, PARAM(1), PARAM(2), PARAM(3), PARAM(4));
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u32 retval = func(¶m_1, PARAM(1), PARAM(2), PARAM(3), PARAM(4)).raw;
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Core::g_app_core->SetReg(1, param_1);
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FuncReturn(retval);
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}
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template<s32 func(u32, s64, s64)> void Wrap() {
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template<ResultCode func(u32, s64, s64)> void Wrap() {
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s64 param1 = ((u64)PARAM(3) << 32) | PARAM(2);
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s64 param2 = ((u64)PARAM(4) << 32) | PARAM(1);
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FuncReturn(func(PARAM(0), param1, param2));
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FuncReturn(func(PARAM(0), param1, param2).raw);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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@ -38,7 +38,7 @@ enum ControlMemoryOperation {
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};
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/// Map application or GSP heap memory
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static Result ControlMemory(u32* out_addr, u32 operation, u32 addr0, u32 addr1, u32 size, u32 permissions) {
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static ResultCode ControlMemory(u32* out_addr, u32 operation, u32 addr0, u32 addr1, u32 size, u32 permissions) {
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LOG_TRACE(Kernel_SVC,"called operation=0x%08X, addr0=0x%08X, addr1=0x%08X, size=%08X, permissions=0x%08X",
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operation, addr0, addr1, size, permissions);
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@ -58,11 +58,11 @@ static Result ControlMemory(u32* out_addr, u32 operation, u32 addr0, u32 addr1,
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default:
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LOG_ERROR(Kernel_SVC, "unknown operation=0x%08X", operation);
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}
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return 0;
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return RESULT_SUCCESS;
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}
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/// Maps a memory block to specified address
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static Result MapMemoryBlock(Handle handle, u32 addr, u32 permissions, u32 other_permissions) {
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static ResultCode MapMemoryBlock(Handle handle, u32 addr, u32 permissions, u32 other_permissions) {
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using Kernel::SharedMemory;
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using Kernel::MemoryPermission;
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@ -71,7 +71,7 @@ static Result MapMemoryBlock(Handle handle, u32 addr, u32 permissions, u32 other
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SharedPtr<SharedMemory> shared_memory = Kernel::g_handle_table.Get<SharedMemory>(handle);
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if (shared_memory == nullptr)
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return InvalidHandle(ErrorModule::Kernel).raw;
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return InvalidHandle(ErrorModule::Kernel);
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MemoryPermission permissions_type = static_cast<MemoryPermission>(permissions);
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switch (permissions_type) {
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@ -89,11 +89,11 @@ static Result MapMemoryBlock(Handle handle, u32 addr, u32 permissions, u32 other
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default:
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LOG_ERROR(Kernel_SVC, "unknown permissions=0x%08X", permissions);
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}
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return 0;
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return RESULT_SUCCESS;
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}
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/// Connect to an OS service given the port name, returns the handle to the port to out
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static Result ConnectToPort(Handle* out, const char* port_name) {
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static ResultCode ConnectToPort(Handle* out, const char* port_name) {
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Service::Interface* service = Service::g_manager->FetchFromPortName(port_name);
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LOG_TRACE(Kernel_SVC, "called port_name=%s", port_name);
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@ -101,33 +101,33 @@ static Result ConnectToPort(Handle* out, const char* port_name) {
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*out = service->GetHandle();
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return 0;
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return RESULT_SUCCESS;
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}
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/// Synchronize to an OS service
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static Result SendSyncRequest(Handle handle) {
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static ResultCode SendSyncRequest(Handle handle) {
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SharedPtr<Kernel::Session> session = Kernel::g_handle_table.Get<Kernel::Session>(handle);
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if (session == nullptr) {
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return InvalidHandle(ErrorModule::Kernel).raw;
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return InvalidHandle(ErrorModule::Kernel);
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}
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LOG_TRACE(Kernel_SVC, "called handle=0x%08X(%s)", handle, session->GetName().c_str());
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return session->SyncRequest().Code().raw;
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return session->SyncRequest().Code();
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}
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/// Close a handle
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static Result CloseHandle(Handle handle) {
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static ResultCode CloseHandle(Handle handle) {
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// ImplementMe
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LOG_ERROR(Kernel_SVC, "(UNIMPLEMENTED) called handle=0x%08X", handle);
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return 0;
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return RESULT_SUCCESS;
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}
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/// Wait for a handle to synchronize, timeout after the specified nanoseconds
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static Result WaitSynchronization1(Handle handle, s64 nano_seconds) {
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static ResultCode WaitSynchronization1(Handle handle, s64 nano_seconds) {
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auto object = Kernel::g_handle_table.GetWaitObject(handle);
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if (object == nullptr)
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return InvalidHandle(ErrorModule::Kernel).raw;
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return InvalidHandle(ErrorModule::Kernel);
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LOG_TRACE(Kernel_SVC, "called handle=0x%08X(%s:%s), nanoseconds=%lld", handle,
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object->GetTypeName().c_str(), object->GetName().c_str(), nano_seconds);
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@ -144,22 +144,22 @@ static Result WaitSynchronization1(Handle handle, s64 nano_seconds) {
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HLE::Reschedule(__func__);
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// NOTE: output of this SVC will be set later depending on how the thread resumes
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return RESULT_INVALID.raw;
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return RESULT_INVALID;
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}
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object->Acquire();
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return RESULT_SUCCESS.raw;
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return RESULT_SUCCESS;
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}
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/// Wait for the given handles to synchronize, timeout after the specified nanoseconds
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static Result WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count, bool wait_all, s64 nano_seconds) {
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static ResultCode WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count, bool wait_all, s64 nano_seconds) {
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bool wait_thread = !wait_all;
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int handle_index = 0;
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// Check if 'handles' is invalid
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if (handles == nullptr)
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return ResultCode(ErrorDescription::InvalidPointer, ErrorModule::Kernel, ErrorSummary::InvalidArgument, ErrorLevel::Permanent).raw;
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return ResultCode(ErrorDescription::InvalidPointer, ErrorModule::Kernel, ErrorSummary::InvalidArgument, ErrorLevel::Permanent);
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// NOTE: on real hardware, there is no nullptr check for 'out' (tested with firmware 4.4). If
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// this happens, the running application will crash.
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@ -167,7 +167,7 @@ static Result WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count,
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// Check if 'handle_count' is invalid
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if (handle_count < 0)
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return ResultCode(ErrorDescription::OutOfRange, ErrorModule::OS, ErrorSummary::InvalidArgument, ErrorLevel::Usage).raw;
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return ResultCode(ErrorDescription::OutOfRange, ErrorModule::OS, ErrorSummary::InvalidArgument, ErrorLevel::Usage);
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// If 'handle_count' is non-zero, iterate through each handle and wait the current thread if
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// necessary
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@ -176,7 +176,7 @@ static Result WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count,
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for (int i = 0; i < handle_count; ++i) {
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auto object = Kernel::g_handle_table.GetWaitObject(handles[i]);
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if (object == nullptr)
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return InvalidHandle(ErrorModule::Kernel).raw;
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return InvalidHandle(ErrorModule::Kernel);
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// Check if the current thread should wait on this object...
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if (object->ShouldWait()) {
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@ -220,7 +220,7 @@ static Result WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count,
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HLE::Reschedule(__func__);
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// NOTE: output of this SVC will be set later depending on how the thread resumes
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return RESULT_INVALID.raw;
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return RESULT_INVALID;
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}
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// Acquire objects if we did not wait...
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@ -242,29 +242,29 @@ static Result WaitSynchronizationN(s32* out, Handle* handles, s32 handle_count,
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// not seem to set it to any meaningful value.
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*out = wait_all ? 0 : handle_index;
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return RESULT_SUCCESS.raw;
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return RESULT_SUCCESS;
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}
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/// Create an address arbiter (to allocate access to shared resources)
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static Result CreateAddressArbiter(u32* arbiter) {
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static ResultCode CreateAddressArbiter(u32* arbiter) {
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using Kernel::AddressArbiter;
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ResultVal<SharedPtr<AddressArbiter>> arbiter_res = AddressArbiter::Create();
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if (arbiter_res.Failed())
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return arbiter_res.Code().raw;
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return arbiter_res.Code();
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ResultVal<Handle> handle_res = Kernel::g_handle_table.Create(*arbiter_res);
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if (handle_res.Failed())
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return handle_res.Code().raw;
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return handle_res.Code();
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LOG_TRACE(Kernel_SVC, "returned handle=0x%08X", *handle_res);
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*arbiter = *handle_res;
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return RESULT_SUCCESS.raw;
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return RESULT_SUCCESS;
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}
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/// Arbitrate address
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static Result ArbitrateAddress(Handle handle, u32 address, u32 type, u32 value, s64 nanoseconds) {
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static ResultCode ArbitrateAddress(Handle handle, u32 address, u32 type, u32 value, s64 nanoseconds) {
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using Kernel::AddressArbiter;
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LOG_TRACE(Kernel_SVC, "called handle=0x%08X, address=0x%08X, type=0x%08X, value=0x%08X", handle,
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@ -272,10 +272,10 @@ static Result ArbitrateAddress(Handle handle, u32 address, u32 type, u32 value,
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SharedPtr<AddressArbiter> arbiter = Kernel::g_handle_table.Get<AddressArbiter>(handle);
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if (arbiter == nullptr)
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return InvalidHandle(ErrorModule::Kernel).raw;
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return InvalidHandle(ErrorModule::Kernel);
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return arbiter->ArbitrateAddress(static_cast<Kernel::ArbitrationType>(type),
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address, value, nanoseconds).raw;
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address, value, nanoseconds);
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}
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/// Used to output a message on a debug hardware unit - does nothing on a retail unit
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@ -284,26 +284,26 @@ static void OutputDebugString(const char* string) {
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}
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/// Get resource limit
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static Result GetResourceLimit(Handle* resource_limit, Handle process) {
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static ResultCode GetResourceLimit(Handle* resource_limit, Handle process) {
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// With regards to proceess values:
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// 0xFFFF8001 is a handle alias for the current KProcess, and 0xFFFF8000 is a handle alias for
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// the current KThread.
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*resource_limit = 0xDEADBEEF;
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LOG_ERROR(Kernel_SVC, "(UNIMPLEMENTED) called process=0x%08X", process);
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return 0;
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return RESULT_SUCCESS;
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}
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/// Get resource limit current values
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static Result GetResourceLimitCurrentValues(s64* values, Handle resource_limit, void* names,
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static ResultCode GetResourceLimitCurrentValues(s64* values, Handle resource_limit, void* names,
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s32 name_count) {
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LOG_ERROR(Kernel_SVC, "(UNIMPLEMENTED) called resource_limit=%08X, names=%s, name_count=%d",
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resource_limit, names, name_count);
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Memory::Write32(Core::g_app_core->GetReg(0), 0); // Normmatt: Set used memory to 0 for now
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return 0;
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return RESULT_SUCCESS;
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}
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/// Creates a new thread
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static Result CreateThread(u32 priority, u32 entry_point, u32 arg, u32 stack_top, u32 processor_id) {
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static ResultCode CreateThread(u32 priority, u32 entry_point, u32 arg, u32 stack_top, u32 processor_id) {
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using Kernel::Thread;
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std::string name;
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@ -317,7 +317,7 @@ static Result CreateThread(u32 priority, u32 entry_point, u32 arg, u32 stack_top
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ResultVal<SharedPtr<Thread>> thread_res = Kernel::Thread::Create(
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name, entry_point, priority, arg, processor_id, stack_top, Kernel::DEFAULT_STACK_SIZE);
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if (thread_res.Failed())
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return thread_res.Code().raw;
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return thread_res.Code();
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SharedPtr<Thread> thread = std::move(*thread_res);
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// TODO(yuriks): Create new handle instead of using built-in
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@ -332,7 +332,7 @@ static Result CreateThread(u32 priority, u32 entry_point, u32 arg, u32 stack_top
|
|||
"thread designated for system CPU core (UNIMPLEMENTED) will be run with app core scheduling");
|
||||
}
|
||||
|
||||
return 0;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Called when a thread exits
|
||||
|
@ -344,214 +344,214 @@ static void ExitThread() {
|
|||
}
|
||||
|
||||
/// Gets the priority for the specified thread
|
||||
static Result GetThreadPriority(s32* priority, Handle handle) {
|
||||
static ResultCode GetThreadPriority(s32* priority, Handle handle) {
|
||||
const SharedPtr<Kernel::Thread> thread = Kernel::g_handle_table.Get<Kernel::Thread>(handle);
|
||||
if (thread == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
*priority = thread->GetPriority();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Sets the priority for the specified thread
|
||||
static Result SetThreadPriority(Handle handle, s32 priority) {
|
||||
static ResultCode SetThreadPriority(Handle handle, s32 priority) {
|
||||
SharedPtr<Kernel::Thread> thread = Kernel::g_handle_table.Get<Kernel::Thread>(handle);
|
||||
if (thread == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
thread->SetPriority(priority);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Create a mutex
|
||||
static Result CreateMutex(Handle* handle, u32 initial_locked) {
|
||||
static ResultCode CreateMutex(Handle* handle, u32 initial_locked) {
|
||||
using Kernel::Mutex;
|
||||
|
||||
auto mutex_res = Mutex::Create(initial_locked != 0);
|
||||
if (mutex_res.Failed())
|
||||
return mutex_res.Code().raw;
|
||||
return mutex_res.Code();
|
||||
SharedPtr<Mutex> mutex = mutex_res.MoveFrom();
|
||||
|
||||
*handle = Kernel::g_handle_table.Create(mutex).MoveFrom();
|
||||
LOG_TRACE(Kernel_SVC, "called initial_locked=%s : created handle=0x%08X",
|
||||
initial_locked ? "true" : "false", *handle);
|
||||
return 0;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Release a mutex
|
||||
static Result ReleaseMutex(Handle handle) {
|
||||
static ResultCode ReleaseMutex(Handle handle) {
|
||||
using Kernel::Mutex;
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called handle=0x%08X", handle);
|
||||
|
||||
SharedPtr<Mutex> mutex = Kernel::g_handle_table.Get<Mutex>(handle);
|
||||
if (mutex == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
mutex->Release();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Get the ID for the specified thread.
|
||||
static Result GetThreadId(u32* thread_id, Handle handle) {
|
||||
static ResultCode GetThreadId(u32* thread_id, Handle handle) {
|
||||
LOG_TRACE(Kernel_SVC, "called thread=0x%08X", handle);
|
||||
|
||||
const SharedPtr<Kernel::Thread> thread = Kernel::g_handle_table.Get<Kernel::Thread>(handle);
|
||||
if (thread == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
*thread_id = thread->GetThreadId();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Creates a semaphore
|
||||
static Result CreateSemaphore(Handle* semaphore, s32 initial_count, s32 max_count) {
|
||||
static ResultCode CreateSemaphore(Handle* semaphore, s32 initial_count, s32 max_count) {
|
||||
using Kernel::Semaphore;
|
||||
|
||||
ResultVal<SharedPtr<Semaphore>> semaphore_res = Semaphore::Create(initial_count, max_count);
|
||||
if (semaphore_res.Failed())
|
||||
return semaphore_res.Code().raw;
|
||||
return semaphore_res.Code();
|
||||
|
||||
ResultVal<Handle> handle_res = Kernel::g_handle_table.Create(*semaphore_res);
|
||||
if (handle_res.Failed())
|
||||
return handle_res.Code().raw;
|
||||
return handle_res.Code();
|
||||
|
||||
*semaphore = *handle_res;
|
||||
LOG_TRACE(Kernel_SVC, "called initial_count=%d, max_count=%d, created handle=0x%08X",
|
||||
initial_count, max_count, *semaphore);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Releases a certain number of slots in a semaphore
|
||||
static Result ReleaseSemaphore(s32* count, Handle handle, s32 release_count) {
|
||||
static ResultCode ReleaseSemaphore(s32* count, Handle handle, s32 release_count) {
|
||||
using Kernel::Semaphore;
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called release_count=%d, handle=0x%08X", release_count, handle);
|
||||
|
||||
SharedPtr<Semaphore> semaphore = Kernel::g_handle_table.Get<Semaphore>(handle);
|
||||
if (semaphore == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
ResultVal<s32> release_res = semaphore->Release(release_count);
|
||||
if (release_res.Failed())
|
||||
return release_res.Code().raw;
|
||||
return release_res.Code();
|
||||
|
||||
*count = *release_res;
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Query memory
|
||||
static Result QueryMemory(void* info, void* out, u32 addr) {
|
||||
static ResultCode QueryMemory(void* info, void* out, u32 addr) {
|
||||
LOG_ERROR(Kernel_SVC, "(UNIMPLEMENTED) called addr=0x%08X", addr);
|
||||
return 0;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Create an event
|
||||
static Result CreateEvent(Handle* handle, u32 reset_type) {
|
||||
static ResultCode CreateEvent(Handle* handle, u32 reset_type) {
|
||||
auto evt_res = Kernel::Event::Create(static_cast<ResetType>(reset_type));
|
||||
if (evt_res.Failed())
|
||||
return evt_res.Code().raw;
|
||||
return evt_res.Code();
|
||||
auto handle_res = Kernel::g_handle_table.Create(evt_res.MoveFrom());
|
||||
if (handle_res.Failed())
|
||||
return handle_res.Code().raw;
|
||||
return handle_res.Code();
|
||||
*handle = handle_res.MoveFrom();
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called reset_type=0x%08X : created handle=0x%08X", reset_type, *handle);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Duplicates a kernel handle
|
||||
static Result DuplicateHandle(Handle* out, Handle handle) {
|
||||
static ResultCode DuplicateHandle(Handle* out, Handle handle) {
|
||||
ResultVal<Handle> out_h = Kernel::g_handle_table.Duplicate(handle);
|
||||
if (out_h.Succeeded()) {
|
||||
*out = *out_h;
|
||||
LOG_TRACE(Kernel_SVC, "duplicated 0x%08X to 0x%08X", handle, *out);
|
||||
}
|
||||
return out_h.Code().raw;
|
||||
return out_h.Code();
|
||||
}
|
||||
|
||||
/// Signals an event
|
||||
static Result SignalEvent(Handle handle) {
|
||||
static ResultCode SignalEvent(Handle handle) {
|
||||
LOG_TRACE(Kernel_SVC, "called event=0x%08X", handle);
|
||||
|
||||
auto evt = Kernel::g_handle_table.Get<Kernel::Event>(handle);
|
||||
if (evt == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
evt->Signal();
|
||||
HLE::Reschedule(__func__);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Clears an event
|
||||
static Result ClearEvent(Handle handle) {
|
||||
static ResultCode ClearEvent(Handle handle) {
|
||||
LOG_TRACE(Kernel_SVC, "called event=0x%08X", handle);
|
||||
|
||||
auto evt = Kernel::g_handle_table.Get<Kernel::Event>(handle);
|
||||
if (evt == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
evt->Clear();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Creates a timer
|
||||
static Result CreateTimer(Handle* handle, u32 reset_type) {
|
||||
static ResultCode CreateTimer(Handle* handle, u32 reset_type) {
|
||||
using Kernel::Timer;
|
||||
|
||||
auto timer_res = Timer::Create(static_cast<ResetType>(reset_type));
|
||||
if (timer_res.Failed())
|
||||
return timer_res.Code().raw;
|
||||
return timer_res.Code();
|
||||
|
||||
auto handle_res = Kernel::g_handle_table.Create(timer_res.MoveFrom());
|
||||
if (handle_res.Failed())
|
||||
return handle_res.Code().raw;
|
||||
return handle_res.Code();
|
||||
*handle = handle_res.MoveFrom();
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called reset_type=0x%08X : created handle=0x%08X", reset_type, *handle);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Clears a timer
|
||||
static Result ClearTimer(Handle handle) {
|
||||
static ResultCode ClearTimer(Handle handle) {
|
||||
using Kernel::Timer;
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called timer=0x%08X", handle);
|
||||
|
||||
SharedPtr<Timer> timer = Kernel::g_handle_table.Get<Timer>(handle);
|
||||
if (timer == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
timer->Clear();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Starts a timer
|
||||
static Result SetTimer(Handle handle, s64 initial, s64 interval) {
|
||||
static ResultCode SetTimer(Handle handle, s64 initial, s64 interval) {
|
||||
using Kernel::Timer;
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called timer=0x%08X", handle);
|
||||
|
||||
SharedPtr<Timer> timer = Kernel::g_handle_table.Get<Timer>(handle);
|
||||
if (timer == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
timer->Set(initial, interval);
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Cancels a timer
|
||||
static Result CancelTimer(Handle handle) {
|
||||
static ResultCode CancelTimer(Handle handle) {
|
||||
using Kernel::Timer;
|
||||
|
||||
LOG_TRACE(Kernel_SVC, "called timer=0x%08X", handle);
|
||||
|
||||
SharedPtr<Timer> timer = Kernel::g_handle_table.Get<Timer>(handle);
|
||||
if (timer == nullptr)
|
||||
return InvalidHandle(ErrorModule::Kernel).raw;
|
||||
return InvalidHandle(ErrorModule::Kernel);
|
||||
|
||||
timer->Cancel();
|
||||
return RESULT_SUCCESS.raw;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
/// Sleep the current thread
|
||||
|
@ -573,22 +573,22 @@ static s64 GetSystemTick() {
|
|||
}
|
||||
|
||||
/// Creates a memory block at the specified address with the specified permissions and size
|
||||
static Result CreateMemoryBlock(Handle* memblock, u32 addr, u32 size, u32 my_permission,
|
||||
static ResultCode CreateMemoryBlock(Handle* memblock, u32 addr, u32 size, u32 my_permission,
|
||||
u32 other_permission) {
|
||||
using Kernel::SharedMemory;
|
||||
// TODO(Subv): Implement this function
|
||||
|
||||
ResultVal<SharedPtr<SharedMemory>> shared_memory_res = SharedMemory::Create();
|
||||
if (shared_memory_res.Failed())
|
||||
return shared_memory_res.Code().raw;
|
||||
return shared_memory_res.Code();
|
||||
|
||||
ResultVal<Handle> handle_res = Kernel::g_handle_table.Create(*shared_memory_res);
|
||||
if (handle_res.Failed())
|
||||
return handle_res.Code().raw;
|
||||
return handle_res.Code();
|
||||
|
||||
*memblock = *handle_res;
|
||||
LOG_WARNING(Kernel_SVC, "(STUBBED) called addr=0x%08X", addr);
|
||||
return 0;
|
||||
return RESULT_SUCCESS;
|
||||
}
|
||||
|
||||
const HLE::FunctionDef SVC_Table[] = {
|
||||
|
|
Reference in New Issue